Hoval TopTronic E User manual
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CST instructions TopTronic®E
TTE-GLT module
Content
1. Controller generation TopTronic®E.............................................................................3
1.1. System overview....................................................................................................................3
2. GLT module TTE-GLT....................................................................................................4
2.1. Module expansion TTE-FE....................................................................................................5
2.2. Control module TTE-(R)BM...................................................................................................6
3. Technical data................................................................................................................7
4. Setting the address of modules (DIP switches) ..........................................................8
5. Overview.........................................................................................................................9
5.1. Overview menu....................................................................................................................10
6. Information menu.........................................................................................................11
7. Function name .............................................................................................................12
7.1. Function name menu...........................................................................................................12
8. Configuration ...............................................................................................................12
8.1. Configuration menu.............................................................................................................12
9. Temperature requirements..........................................................................................13
9.1. Input signal, characteristic curve.......................................................................................13
9.2. Send requirement ................................................................................................................13
9.3. Heating / cooling change-over............................................................................................14
9.4. Temperature requirement menu.........................................................................................14
10. Output requirement......................................................................................................15
10.1. Input signal, characteristic curve....................................................................................15
10.2. Send request ....................................................................................................................15
10.3. Heating / cooling change-over ........................................................................................16
10.4. Power requirement menu ................................................................................................16
11. Reference value detection...........................................................................................17
11.1. Reference value detection menu.....................................................................................17
12. Information sensor / information 0-10V .....................................................................18
12.1. Information sensor...........................................................................................................18
12.2. Information 0-10V.............................................................................................................18
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12.3. Info values menu..............................................................................................................19
13. Date time menu ............................................................................................................20
14. Sensor balancing menu...............................................................................................21
15. Faults ............................................................................................................................22
Fault output............................................................................................................................22
15.1. Faults menu......................................................................................................................22
16. Relay test......................................................................................................................23
16.1. Relay test menu................................................................................................................23
17. Sensors.........................................................................................................................23
17.1. Sensors menu ..................................................................................................................23
18. Reference value increase/decrease ...........................................................................24
Reference value increase / reference value reduction function......................................................24
19. Bootloader....................................................................................................................26
20. Commissioning............................................................................................................26
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1. Controller generation TopTronic®E
The TopTronic®E controller system is based on independent controller units (modules) that are connected together via the Hoval CAN bus. The individual modules can
be set using one or more control modules.
A maximum of 16 intelligent modules can be connected. Of these, max. 8 modules can be equipped as TTE H-Gen modules.
Max. two TTW-FE expansion modules can be connected to the intelligent modules. (Exception: max. 1 expansion module for TTE H-Gen module)
1.1.System overview
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2. GLT module TTE-GLT
The specific tasks of the TTE –GLT module are:
It should
a) read in temperature reference values for heating, cooling and hot water via 0-10V inputs and output them
to the heat manager or buffer
b) read in power reference values for heating, cooling and hot water via 0-10V inputs and output them to the
heat generator
c) detect reference values from consumers and display them at outputs
d) provide inputs for the setpoint increase/decrease
e) provide information sensors
f) display the presence of controller faults at an output
10AT
TTE - HK/WW
TTE - SOL
TTE –PS
TTE - GLT
L PE N
Netz-in
N
VA1 / VA2
LL N L
VA3 SK-VA3
N PE L1
Netz-out
L
OP
VA3
2 1
VE1
2 1
VE2
2 1
VE3
/IMP
- +
VA10V
/PWM
- +
VE10V
+
T
F T
FVT
+HL
CAN
+HL
CAN GBR-CAN
OFF
ON
432
ADR.
1
ON
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2.1. Module expansion TTE-FE
Universal module for hardware expansion of inputs/outputs. Can be used for each control module, as well as the
GLT module.
Max. 2 module expansions are possible per control/GLT module. The connection to the particular control module
is made using a ribbon cable (unit bus GB) and mains connection plug set.
2 1
VE1
2 1
VE2
2 1
VE3
/IMP
- +
VA10V
/PWM
- +
VE10V
TTE - FE
L PE N
Netz-in
N
VA1 / VA2
LL N L
VA3 SK-VA3
+
T
F T
FVT
N PE L1
Netz-out
GBGB
L
OP
VA3
Legend:
CAN System data bus
FVT-F Flow rate sensor (F = flow rate)
FVT-T Flow rate sensor (T = temperature)
Netz-In Mains input 230V~/13A slow-blow
Netz-out Mains output 230V~ max. 4 A slow-blow
SK-VA3 Safety chain VA3 output
VA1,2,3 Variable output 1,2,3
VA10V/PWM Variable output 0-10V/PWM
VE1,2,3 (IMP) Variable input 1,2 (IMP = sensor or pulse)
VE10V 1 Variable input 0-10V
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2.2. Control module TTE-(R)BM
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3. Technical data
Designation/type TopTronic E
GLT module TopTronic E
Module expansion
Abbreviation TTE-GLT TTE-FE
Power supply max 230 V AC +6 - 10% 230 V AC +6 - 10%
Frequency 50 – 60 Hz 50 – 60 Hz
Max. power consumption incl.
bus supply, module expansions
18.9 W 1.8 W
Max. power consumption
7.8 W 1.8 W
Fuse 10 A slow-blow
none - protection
via controller module
Outputs (high-voltage)
Fully electronic relays 0 0
Electromechanical relays 3 3
Outputs (extra-low voltage)
Signal output PWM or 0-10V 1 1
Switching capacity
Electromechanical relays 2 (2) A 2 (2) A
Inputs (high-voltage)
Optocoupler input 1 1
Inputs (extra-low voltage)
Input 0-10V 1 1
Inputs sensors 2 2
Inputs flow rate sensor 1 1
Pulse input 1 (can be switched over to sensor) 1 (can be switched over to sensor)
Voltage measuring circuit 15 V, with protective isolation 2.9 kV 15 V, with protective isolation 2.9 kV
Expansion (module expansion)
Max. number 2
-
Casing
Assembly Top hat rail mounting (35x15) Top hat rail mounting (35x15)
Dimensions W/H/D in mm
incl. plug
150x100x75 150x100x75
Ambient temperature 0 … 50°C 0 … 50°C
Storage temperature - 20 ... 60°C - 20 ... 60°C
Bus system (Hoval CAN bus)
Capacity
max. 4 control modules /
3 control modules + 1 gateway
-
Bus supply yes none
Bus line 4-wire bus -
Bus length twisted, shielded, max. 100 m -
Line cross-section min 0.5 mm² -
Other bus interfaces
internal unit bus (master) internal unit bus (slave)
-
-
Miscellaneous
Spring reserve 10 years, battery buffered -
Type of protection IP 20 IP 20
Protection class II – EN 60730 II – EN 60730
Plug types Rast5 (coloured, coded) Rast5 (coloured, coded)
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4. Setting the address of modules (DIP switches)
The addresses of the individual modules are set using the DIP switches on the circuit board. Each module must
have a different address. The addresses do not have to be set in consecutive sequence.
The factory settings for the modules were selected so that there is no need to change the address settings,
as long as no module occurs twice.
DIP switch
Addr.
Factory setting
DIP switch
Addr.
Factory setting
4
3
2
1
4
3
2
1
Off
1
TTE-WEZ / TTE-
FW
Off
9
TTE-HK/WW
On
On
4
3
2
1
4
3
2
1
Off
2
Off
10
On
On
4
3
2
1
4
3
2
1
Off
3
Off
11
On
On
4
3
2
1
4
3
2
1
Off
4
Off
12
TTE-GLT
On
On
(0-10V)
4
3
2
1
4
3
2
1
Off
5
Off
13
TTE-MWA
On
On
(M-bus)
4
3
2
1
4
3
2
1
Off
6
Off
14
On
On
4
3
2
1
4
3
2
1
Off
7
Off
15
TTE-PS
On
On
4
3
2
1
4
3
2
1
Off
8
Off
16
TTE-SOL
On
On
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5. Overview
The following overview shows the main functions and the relationship with inputs and outputs. What are involved
are HW inputs and outputs, or information via the system bus.
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5.1. Overview menu
General
(FunctionName)
General
(DefaultValue)
Function
(FunctionNumber 0)
General
(FunctionGroupName)
Address
(controller) Service
Resource
Function group
(FunctionGroup 0)
Information
Operation
(DisplayGroup)
0-10V
temp. HT
Configuration
Function
name
1
2
3
4
5
6
7
0-10V
temp. cool
0-10V
temp. DHW
0-10V
power HT
Relay test
Faults
13
14
Sensors
15
Bootloader
16
Clock date
Info values
11
12
Sensor
balancing
96
0-10V
powercool
0-10V
power DHW
Ref. value
det.
8
9
10
.
.
The unit only comprises the function group / "General" function / "General".
All data points and SW functions are allocated to this group.
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6. Information menu
Parameters
Designation
Value
Min.
Max.
Comments
R
W
21-120
Info 1
77.1 °C
0
0
Info 1
0
7
21-121
Info 2
--- °C
0
0
Info 2
0
7
21-122
Info 3
--- °C
0
0
Info 3
0
7
21-123
Info 4
--- °C
0
0
Info 4
0
7
21-124
Info 5
--- °C
0
0
Info 5
0
7
21-112
Info 1 IMP
---
0
0
Info 1 IMP
0
7
21-113
Info 2 IMP
---
0
0
Info 2 IMP
0
7
21-114
Info 3 IMP
---
0
0
Info 3 IMP
0
7
20-090
Name info 1
Test name info values
0
13
Name info 1Name info 1
4
4
21-125
Info 1 0-10V
493
0
0
Info 1 0-10V
0
7
21-126
Info 2 0-10V
---
0
0
Info 2 0-10V
0
7
20-091
Name info 2
Info 2
0
13
Name info 2
4
4
21-127
Info 3 0-10V
---
0
0
Info 3 0-10V
0
7
04-090
Unit identification
TTE-GLT
0
0
"Unit name such as ""TTE-
GLT"""
0
7
20-092
Name info 3
Info 3
0
13
Name info 3
4
4
04-089
Commissioning date
26.01.2015
0
0
Commissioning date
3
3
20-004
Software version
0.0.3
0
0
Software version
0
7
20-093
Name info 4
Info 4
0
13
Name info 4
4
4
04-093
HW version
0
0
0
HW version of the unit
0
7
21-106
Temperature
requirement heating
0 °C
0
0
Temperature requirement
heating
0
7
20-094
Name info 5
Info 5
0
13
Name info 5
4
4
21-107
Temperature
requirement cooling
0 °C
0
0
Temperature requirement
cooling
0
7
21-108
Hot water temp.
requirement
0 °C
0
0
Hot water temp. requirement
0
7
20-095
Name info 1 0-10V
Info 1 VE0-10V
0
13
Name info 1 0-10V
4
4
21-109
Output setpoint heating
0%
0
0
Output setpoint heating
0
7
21-110
Output setpoint cooling
0%
0
0
Output setpoint cooling
0
7
20-096
Name info 2 0-10V
Info 2 VE0-10V
0
13
Name info 2 0-10V
4
4
21-111
Output setpoint hot
water
0%
0
0
Output setpoint hot water
0
7
21-091
Setpoint incr./decr.
status
13
0
0
Setpoint incr./decr. status
1x Increase undefined
(input not allocated)
2x Increase inactive
(input open)
3x Increase active
(input closed)
x1 Reduction undefined
(input not allocated)
x2 Reduction inactive
(input open)
x3 Reduction active
(input closed)
1
7
20-097
Name info 3 0-10V
Info 3 VE0-10V
0
13
Name info 3 0-10V
4
4
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Parameters
Designation
Value
Min.
Max.
Comments
R
W
02-067
SO/WI display
0
0
1
Summer/winter operation
display
4
7
20-009
Software version
expansion module 2
0
0
0
Software version expansion
module 2
0
7
20-019
Hardware version
expansion module 2
0
0
0
Hardware version expansion
module 2
0
7
20-203
Version_CommonLib
1.3.0
0
0
Library version
5
7
20-200
Version_VMLib
1.3.0
0
0
Library version
5
7
20-201
Version_L2Lib
1.3.0
0
0
Library version
5
7
20-202
Version_BSPLib
1.3.0
0
0
Library version
5
7
7. Function name
In the Function name menu, it is possible to assign a freely definable name in addition to the standard name of
each function. This is then transferred to the operator level (e.g. for operating mode selection). Both names are
displayed in the parameter level.
7.1. Function name menu
Parameter
Designation
Value
Min.
Max.
Comment
R
W
04-005
Function name
General
0
13
Function name
0
5
8. Configuration
In the Configuration menu, the controller can be reset to the factory settings, and a reference value increase or
reduction can be activated. In addition, it is possible to perform a factory reset under par. 04-045 (reset to factory
settings).
8.1. Configuration menu
Parameter
Designation
Value
Min.
Max.
Comment
R
W
04-045
Commands
No action
Perform command
0 = No action
9 = Reset processor (like power off-on)
21 = Error unlocking
31 = Factory reset
0
5
20-027
Set IBN date
2036-02-06
0
0
Command set commissioning date
5
5
30-066
Alloc. heat/cool
sw. valve input
temp.
0=OFF
Allocation heating/cooling switching input
Temperature request
3
3
30-070
Alloc. heating/
cooling sw. valve
input
0=OFF
Alloc. heating/cooling sw. valve input
3
3
30-054
Allocation
setpoint increase
input
0=OFF
Allocation setpoint increase input
0=OFF, 1=AF, 2=SF, 3=VF1, 4=VE1, 5=VE2,
7=VE1-FE1, 8=VE2-FE1, 9=VE3-FE1,
10=FVT-T-FE1, 12=VE1-FE2, 13=VE2-FE2,
14=VE3-FE2, 15=FVT-T-FE2
3
3
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Parameter
Designation
Value
Min.
Max.
Comment
R
W
30-055
Allocation
setpoint
reduction input
5=VE2
Allocation setpoint reduction input
0=OFF, 1=AF, 2=SF, 3=VF1, 4=VE1, 5=VE2,
7=VE1-FE1, 8=VE2-FE1, 9=VE3-FE1,
10=FVT-T-FE1, 12=VE1-FE2, 13=VE2-FE2,
14=VE3-FE2, 15=FVT-T-FE2
3
3
9. Temperature requirements
A function with the analog behaviour is implemented for each of the three energy types of heating, cooling and
hot water. Each energy type has a parameter set. A function is only active if its input is allocated. (Parameter
"Input allocation request")
9.1. Input signal, characteristic curve
Using a 0-10V signal, a temperature is read in using linear conversion. The characteristic curve is defined by two
adjustable coordinates ({X1, Y1}, {X2, Y2}).
Only voltages between 0V and 10V can be read in. The temperatureresulting from the conversion is limited
downwards acc. to the "Min. requirement"parameter and limited upwards acc. to the "Max. requirement" parameter.
9.2. Send requirement
The measured temperature is sent to the instance as a reference value with the corresponding energy type
according to the "requirement type" parameter.
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9.3. Heating / cooling change-over
If an input is allocated for switching over between heating and cooling, one each of the two functions is blocked
and the other is enabled:
Input open: Heating requirement function is active. Cooling requirement is blocked.
If the input is closed: Heating requirement function is blocked. Cooling requirement is active.
9.4. Temperature requirement menu
Parameter
Designation
Value
Min.
Max.
Comment
R
W
07-002
Min. requirement heating
5 °C
0.0
100.0
Min. requirement heating
3
3
07-008
Max. requirement heating
100 °C
0.0
120.0
Max. requirement heating
3
3
07-035
Heating requirement type
1=Heat generator
Heating requirement type
3
3
30-063
Allocation heating
requirement input
0=OFF
Allocation heating
requirement input
3
3
06-113
Characteristic curve X1
heating
0.5 V
0.0
10.0
Characteristic curve X1
heating
3
3
06-111
Characteristic curve Y1
heating
5 °C
0.0
100.0
Characteristic curve Y1
heating
3
3
06-114
Characteristic curve X2
heating
10 V
0.0
10.0
Characteristic curve X2
heating
3
3
06-112
Characteristic curve Y2
heating
100 °C
0.0
120.0
Characteristic curve Y2
heating
3
3
07-114
Min. requirement cooling
5 °C
0.0
100.0
Min. requirement cooling
3
3
07-115
Max. requirement cooling
100 °C
0.0
120.0
Max. requirement cooling
3
3
07-059
Cooling requirement type
1=Heat generator
Cooling requirement type
3
3
30-064
Allocation cooling
requirement input
0=OFF
Allocation cooling
requirement input
3
3
06-117
Characteristic curve X1
cooling
0.5 V
0.0
10.0
Characteristic curve X1
cooling
3
3
06-115
Characteristic curve Y1
cooling
5 °C
0.0
100.0
Characteristic curve Y1
cooling
3
3
06-118
Characteristic curve X2
cooling
10 V
0.0
10.0
Characteristic curve X2
cooling
3
3
06-116
Characteristic curve Y2
cooling
100 °C
0.0
120.0
Characteristic curve Y2
cooling
3
3
36-004
Min. requirement hot water
5 °C
0.0
100.0
Min. requirement hot water
3
3
05-057
Max. requirement hot water
100 °C
0.0
120.0
Max. requirement hot water
3
3
05-087
Hot water requirement type
1=Heat generator
Hot water requirement type
3
3
30-065
Allocation hot water req. input
0=OFF
Allocation hot water req. input
3
3
36-002
Characteristic curve X1 hot
water
0.5 V
0.0
10.0
Characteristic curve X1 hot
water
3
3
36-000
Characteristic curve Y1 hot
water
5 °C
0.0
100.0
Characteristic curve Y1 hot
water
3
3
36-001
Characteristic curve X2 hot
water
10 V
0.0
10.0
Characteristic curve X2 hot
water
3
3
36-003
Characteristic curve Y2 hot
water
100 °C
0.0
120.0
Characteristic curve Y2 hot
water
3
3
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10. Output requirement
A function with the analog behaviour is implemented for each of the three energy types of heating, cooling and
hot water. Each energy type has a parameter set. A function is only active if its input is allocated ("Input allocation
request" parameter).
10.1. Input signal, characteristic curve
Using the 0-10V characteristic curve, an output is read in using linear conversion. The characteristic curve is set
on the points {1V, 1%} and {10V, 100%}.
Voltages between 0V and 0.5V are interpreted as "Auto". No requirement is transferred.
Voltages:
0V –0.5V Heat generator not activated
0.5V –1.0V Heat generator off
1.0V –10.0V Heat generator on, voltage produces reference output
10.2. Send request
The "Allocation heat generator" parameter determines which heat generator to which the requirement is sent.
As requirement, the following is sent with the corresponding energy type:
Heat generator not activated, no requirement is sent to the heat generator
Heat generator off T-ref. = 0°, P-ref. = 0%
Heat generator on T-ref. (heating) = 120°, T-ref. (cooling) = 6°, P-ref. = Ref. output
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10.3. Heating / cooling change-over
If an input is allocated for switching over between heating and cooling, one each of the two functions is blocked
and the other is enabled:
Input open: Heating requirement function is active, cooling requirement is blocked
Input closed: Heating requirement function is blocked, cooling requirement is active
10.4. Power requirement menu
Parameter
Designation
Value
Min.
Max.
Comment
R
W
20-016
Allocation
heat generator
heating
0
0
8
Allocation heat generator heating
3
3
30-067
Allocation output
setpoint input
heating
0=OFF
Allocation output setpoint input heating
3
3
20-017
Allocation heat
generator cooling
0
0
8
Allocation heat generator cooling
3
3
30-068
Alloc. output
setpoint input
cooling
0=OFF
Alloc. output setpoint input cooling
3
3
20-018
Allocation heat
generator hot
water
0
0
8
Allocation heat generator hot water
3
3
30-069
Alloc. output stpt
hot water input
0=OFF
Alloc. output stpt hot water input
3
3
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11. Reference value detection
Reference values for heating, cooling and hot water are registered and each one signalled on an output.
The reference values of the consumers are registered for the functions of heating, cooling and hot water, and are
displayed on the allocated output. If the reference value is > 0, the correspondingly allocated output is switched
on after the set triggering delay has expired. If the nominal value = 0 or if no reference value is received, the
output is switched off.
Any reference values generated in the module must also be taken into account.
If no output is allocated, the function has no effect.
Note: The reference value ID acts on consumer reference values (heating, cooling, hot water)!
11.1. Reference value detection menu
Parameter
Designation
Value
Min.
Max.
Comment
R
W
29-080
Set point detect.
output delay
heating
0.5 min
0.0
99.0
Set point detect. output delay heating
3
3
29-081
Stpt. detection
output delay
cooling
0.5 min
0.0
99.0
Set point detect. output delay cooling
3
3
29-082
DHW setpoint
detection output
delay
0.5 min
0.0
99.0
Set point detect. output delay hot water
3
3
32-049
Allocation
setpoint det.
output heating
0
0
14
Allocation setpoint det. output heating
3
3
32-050
Allocation
setpoint det.
output cooling
0
0
14
Allocation setpoint det. output cooling
3
3
32-051
Alloc. stpt.
detection hot
water output
0
0
14
Alloc. stpt. detection hot water output
3
3
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12. Information sensor / information 0-10V
12.1. Information sensor
Various inputs can be used as information values in the Info values menu.
Variant 1: Information sensor temperature
5 Temperature inputs can be defined as information sensors. Individual designations/names can be defined for
each of these information sensors. The input is not monitored for interruption and short circuit. The description
below relates to the first information sensor.
Parameter
Factory
EH
Function
Par-ID
Information sensor temperature 1
-
General
information
21-120
Input allocation information sensor 1
0
-
General
info values
30-071
Name information sensor 1
Info 1
-
General
information/
info values
20-090
… type of sensor
0=KTY, 1=PTC, 2=PT1000
…
-
General
sensors
33-000
- …
12.2. Information 0-10V
Variant 2: Information 0-10V:
3 information values 0-10V can be defined. Individual designations/names can be defined for each of these
information values. The value is shown without unit. If a unit is required, this must be put in the freely selectable
designation/name.
The voltage applied to the input is converted with a linear characteristic and displayed. The characteristic passes
through the zero point (0 volt = displayed value 0) and through the point (10V, parameter "conversion for 10V").
The description below relates to the first 0-10V information value.
Parameter
Factory
EH
Function
Par-ID
Info 1 0-10V
-
General
information
21-125
Input allocation information 1 0-10V
0=OFF, 4=VE10V, 10=VE10V-FE1, 16=VE10VFE2
0
-
General
info values
30-076
Conversion for info 1
10
-
General
info values
20-100
Name information 1 0-10V
Info 1
VE0-10V
-
General
information/
info values
20-095
Example: oil level gauge 0V= 0 ltr., 10V = 5000 ltr. (TTE-PS VE10V)
30-076 : 4 (alloc. inp. VE10V)
20-100 : 500 (conversion factor, 10 x 500 = 5000 at 10V)
20-095 : ltr. oil level (designation/name)
4 214 174 V00 KDT GLT-Modul TTE_EN.docx 19 / 26
12.3. Info values menu
Parameters
Designation
Value
Min.
Max.
Comments
R
W
30-071
Alloc.inp.info 1
0=OFF
Alloc. inp. information 1:
0=AUS, 1=VE1, 2=VE2, 3=VE3,
5=FVT-T, 7=VE1-FE1, 8=VE2-FE1,
9=VE3-FE1, 11=FVT-T-FE1, 13=VE1-
FE2, 14=VE2-FE2, 15=VE3-FE2,
17=FVT-T-FE2
4
4
20-090
Name info 1
Info 1
0
13
Name information 1
0
4
30-072
Alloc.inp.info 2
0=OFF
Alloc. inp. information 2:
0=OFF, 1=VE1, 2=VE2, 3=VE3,
5=FVT-T, 7=VE1-FE1, 8=VE2-FE1,
9=VE3-FE1, 11=FVT-T-FE1, 13=VE1-
FE2, 14=VE2-FE2, 15=VE3-FE2,
17=FVT-T-FE2
4
4
20-091
Name info 2
Info 2
0
13
Name information 2
0
4
30-073
Alloc.inp.info 3
0=OFF
Alloc. inp. information 3:
0=OFF, 1=VE1, 2=VE2, 3=VE3,
5=FVT-T, 7=VE1-FE1, 8=VE2-FE1,
9=VE3-FE1, 11=FVT-T-FE1, 13=VE1-
FE2, 14=VE2-FE2, 15=VE3-FE2,
17=FVT-T-FE2
4
4
20-092
Name info 3
Info 3
0
13
Name information 3
0
4
30-074
Alloc.inp.info 4
0=OFF
Alloc. inp. information 4:
0=OFF, 1=VE1, 2=VE2, 3=VE3,
5=FVT-T, 7=VE1-FE1, 8=VE2-FE1,
9=VE3-FE1, 11=FVT-T-FE1, 13=VE1-
FE2, 14=VE2-FE2, 15=VE3-FE2,
17=FVT-T-FE2
4
4
20-093
Name info 4
Info 4
0
13
Name information 4
0
4
30-075
Alloc.inp.info 5
0=OFF
Alloc. inp. information 5:
0=OFF, 1=VE1, 2=VE2, 3=VE3,
5=FVT-T, 7=VE1-FE1, 8=VE2-FE1,
9=VE3-FE1, 11=FVT-T-FE1, 13=VE1-
FE2, 14=VE2-FE2, 15=VE3-FE2,
17=FVT-T-FE2
4
4
20-094
Name info 5
Info 5
0
13
Name information 5
0
4
30-079
Alloc.inp.info 1 IMP
0=OFF
Alloc. inp. information 1 pulse:
0=OFF, 3=VE3, 6=FVT-F, 9=VE3-FE1,
12=FVT-F FE1, 15=VE3-FE2, 18=FVT-
F FE2
4
4
20-105
Name info 1 IMP
Info 1 IMP
0
13
Name info 1 IMP
4
4
20-070
Vol. flow pulse gen
pulse rate info 1 IMP
20
,1
5000.0
Entry of the pulse rate in pulses/litre
4
4
20-080
Volume flow pulse
gen. offset info 1
IMP
0
-10.00
10.00
Offset (for flow rate sensor)
4
4
30-080
Alloc.inp.info 2 IMP
0=OFF
Alloc. inp. information 2 pulse:
0=OFF, 3=VE3, 6=FVT-F, 9=VE3-FE1,
12=FVT-F FE1, 15=VE3-FE2, 18=FVT-
F FE2
4
4
20-106
Name info 2 IMP
Info 2 IMP
0
13
Name info 2 IMP
4
4
4 214 174 V00 KDT GLT-Modul TTE_EN.docx 20 / 26
20-071
Vol. flow pulse gen
pulse rate info 2 IMP
20
,1
5000.0
Volume flow rate sensor (pulses per litre)
4
4
20-081
Volume flow pulse
gen. offset info 2
IMP
0
-10.00
10.00
Offset (for flow rate sensor)
4
4
30-081
Alloc.inp.info 3 IMP
0=OFF
Alloc. inp. information 3 pulse:
0=OFF, 3=VE3, 6=FVT-F, 9=VE3-FE1,
12=FVT-F FE1, 15=VE3-FE2, 18=FVT-
F FE2
4
4
20-107
Name info 3 IMP
Info 3 IMP
0
13
Name info 3 IMP
4
4
20-072
Vol. flow pulse gen
pulse rate info 3 IMP
20
,1
5000.0
Volume flow rate sensor (pulses per litre)
4
4
20-082
Offset VIG Info3 IMP
0
-10.00
10.00
Offset (for flow rate sensor)
4
4
30-076
Alloc.inp.info 1
0-10V
0=OFF
Alloc. inp. information 1 0-10V:
0=OFF, 4=VE10V, 10=VE10V-FE1,
16=VE10VFE2
4
4
20-100
Conversion for 10V
info 1
10
10
10000
Conversion for 10V
Info 1
4
4
20-095
Name info 1
0-10V
Info 1 VE
0-10V
0
13
Name information 1
0-10V
0
4
30-077
Alloc.inp.info 2
0-10V
0=OFF
Alloc. inp. information 2 0-10V:
0=OFF, 4=VE10V, 10=VE10V-FE1,
16=VE10VFE2
4
4
20-101
Conversion for 10V
info 2
10
10
10000
Conversion for 10V
Info 2
4
4
20-096
Name info 2
0-10V
Info 2 VE
0-10V
0
13
Name information 2
0-10V
0
4
30-078
Alloc.inp.info 3
0-10V
0=OFF
Alloc. inp. information 3 0-10V:
0=OFF, 4=VE10V, 10=VE10V-FE1,
16=VE10VFE2
4
4
20-102
Conversion for 10V
info 3
10
10
10000
Conversion for 10V
Info 3
4
4
20-097
Name info 3
0-10V
Info 3 VE
0-10V
0
13
Name information 3
0-10V:
13. Date time menu
Parameter
Designation
Value
Min.
Max.
Comment
R
W
02-070
Date
2015-01-16
0
65535
Date
0
0
02-072
Time of day
14:47
0
1439
Time of day
0
0
02-073
Weekday
Friday
0
0
Weekday
0
7
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